Hana Godrich scite author profile

This paper presents an analysis of target localization accuracy, attainable by the use of MIMO (Multiple-Input Multiple-Output) radar systems, configured with multiple transmit and receive sensors, widely distributed over a given area. The Cramer-Rao lower bound (CRLB) for target localization accuracy is developed for both coherent and noncoherent processing. Coherent processing requires a common phase reference for all transmit and receive sensors.The CRLB is shown to be inversely proportional to the signal effective bandwidth in the non-coherent case, but is approximately inversely proportional to the carrier frequency in the coherent case. We further prove that optimization over the sensors' positions lowers the CRLB by a factor equal to the product of the number of transmitting and receiving sensors. The best linear unbiased estimator (BLUE) is derived for the MIMO target localization problem. The BLUE's utility is in providing a closed form localization estimate that facilitates the analysis of the relations between sensors locations, target location, and localization accuracy. Geometric dilution of precision (GDOP) contours are used to map the relative performance accuracy for a given layout of radars over a given geographic area.

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Power Allocation Strategies for Target Localization in Distributed Multiple-Radar Architectures

Godrich

Petropulu

Poor

2011

IEEE Trans. Signal Process.

280

173

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Sensor Selection in Distributed Multiple-Radar Architectures for Localization: A Knapsack Problem Formulation

Godrich

Petropulu

Poor

2012

IEEE Trans. Signal Process.

200

146

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Hana Godrich

Target Localization Accuracy Gain in MIMO Radar-Based Systems

Power Allocation Strategies for Target Localization in Distributed Multiple-Radar Architectures

Sensor Selection in Distributed Multiple-Radar Architectures for Localization: A Knapsack Problem Formulation

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